Fibonacci Tree Solar Panel

And unlike a flat solar panel which must be mechanically readjusted to follow the sun s moving path a fibonacci sequence tree can still absorb light when the sun sits low in the sky.

Fibonacci tree solar panel.

Aidan explained my design is like a tree but instead of having leaves it has solar panels at the ends of the branches. Looking at the fibonacci series which describes spirals he also noticed that tree leaves adhered to the spiral sequence. The tree design made 20 more electricity and collected 2 1 2 more hours of sunlight during the day. The fibonacci tree design performed better than the flat panel model.

So he came up with his little invention to generate the maximum amount of energy using the fractal principals of nature. Plus i observed that the fibonacci pattern helped the branches and leaves on a tree to avoid shading each other. At that point the tree design generated 50 percent more power without any adjustments to its declination angle. Solar tree on the basis of fibonacci ratios such as 1 3 2 5 3 8 and 5 13.

A solar tree is a different take on ground mounted panels. It is observed from the. Solar trees offer more than just energy output from their panels. The tree design made 20 more electricity and collected 2 1 2 more hours of sunlight during the.

The american museum of natural history rewarded him with a young naturalist award. Like a real tree solar trees can offer shade making them ideal for integration into an open park or property. But the most interesting results were in december when the sun was at its lowest point in the sky. He determined the tree s fibonacci pattern allowed some solar panels to collect.

This led him to propose arranging solar panels like oak trees leaves a manner which would be 20 to 50 percent more efficient energy wise. Young naturalist awards he determined the tree s fibonacci pattern allowed some solar panels to collect sunlight even if others were in shade and prevented branches on a tree from shading other. In this work a solar tree based on 2 5 fibonacci ratio is designed and its energy output in a particular time duration is compared with a fixed solar panel of equal capacity facing equal amount of solar insolation. My conclusions suggest that the fibonacci pattern in trees makes an evolutionary difference.

The fibonacci pattern allowed some solar panels to collect sunlight even if others were in shade. Collecting the most sunlight is the difference between life and death wrote aidan who thinks humans can put treelike solar panel designs to use especially in urban spaces where sunlight is scarce. Solar tree systems elevate panels high into the air and support them with a single free standing structure.